530 lines
17 KiB
C
530 lines
17 KiB
C
/*
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* Copyright 2008 Christian König <deathsimple@vodafone.de>
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* Copyright 2007 Luc Verhaegen <lverhaegen@novell.com>
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* Copyright 2007 Matthias Hopf <mhopf@novell.com>
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* Copyright 2007 Egbert Eich <eich@novell.com>
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* Copyright 2007 Advanced Micro Devices, Inc.
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation
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* the rights to use, copy, modify, merge, publish, distribute, sublicense,
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* and/or sell copies of the Software, and to permit persons to whom the
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* Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
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* OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
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* ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
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* OTHER DEALINGS IN THE SOFTWARE.
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#include "xf86.h"
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#include "rhd.h"
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#include "rhd_audio.h"
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#include "rhd_connector.h"
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#include "rhd_output.h"
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#include "rhd_hdmi.h"
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#include "rhd_regs.h"
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enum HdmiColorFormat {
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RGB = 0,
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YCC_422 = 1,
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YCC_444 = 2
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};
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struct {
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CARD32 Clock;
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int N_32kHz;
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int CTS_32kHz;
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int N_44_1kHz;
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int CTS_44_1kHz;
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int N_48kHz;
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int CTS_48kHz;
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} AudioClockRegeneration[] = {
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/* 32kHz 44.1kHz 48kHz */
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/* Clock N CTS N CTS N CTS */
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{ 25174, 4576, 28125, 7007, 31250, 6864, 28125 }, /* 25,20/1.001 MHz */
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{ 25200, 4096, 25200, 6272, 28000, 6144, 25200 }, /* 25.20 MHz */
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{ 27000, 4096, 27000, 6272, 30000, 6144, 27000 }, /* 27.00 MHz */
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{ 27027, 4096, 27027, 6272, 30030, 6144, 27027 }, /* 27.00*1.001 MHz */
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{ 54000, 4096, 54000, 6272, 60000, 6144, 54000 }, /* 54.00 MHz */
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{ 54054, 4096, 54054, 6272, 60060, 6144, 54054 }, /* 54.00*1.001 MHz */
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{ 74175, 11648, 210937, 17836, 234375, 11648, 140625 }, /* 74.25/1.001 MHz */
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{ 74250, 4096, 74250, 6272, 82500, 6144, 74250 }, /* 74.25 MHz */
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{ 148351, 11648, 421875, 8918, 234375, 5824, 140625 }, /* 148.50/1.001 MHz */
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{ 148500, 4096, 148500, 6272, 165000, 6144, 148500 }, /* 148.50 MHz */
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{ 0, 4096, 0, 6272, 0, 6144, 0 } /* Other */
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};
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/*
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* calculate CTS value if it's not found in the table
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*/
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static void
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HdmiCalcCTS(struct rhdHdmi *hdmi, CARD32 Clock, int* CTS, int N, int freq)
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{
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if(*CTS == 0) *CTS = Clock*1000*N/(128*freq);
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xf86DrvMsg(hdmi->scrnIndex, X_INFO, "Using ACR timing N=%d CTS=%d for frequency %d\n",N,*CTS,freq);
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}
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/*
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* update the N and CTS parameters for a given clock rate
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*/
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static void
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HdmiAudioClockRegeneration(struct rhdHdmi *hdmi, CARD32 Clock)
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{
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int CTS;
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int N;
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int i;
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for(i=0; AudioClockRegeneration[i].Clock != Clock && AudioClockRegeneration[i].Clock != 0; i++);
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CTS = AudioClockRegeneration[i].CTS_32kHz;
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N = AudioClockRegeneration[i].N_32kHz;
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HdmiCalcCTS(hdmi, Clock, &CTS, N, 32000);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_32kHz_CTS, CTS << 12);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_32kHz_N, N);
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CTS = AudioClockRegeneration[i].CTS_44_1kHz;
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N = AudioClockRegeneration[i].N_44_1kHz;
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HdmiCalcCTS(hdmi, Clock, &CTS, N, 44100);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_44_1kHz_CTS, CTS << 12);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_44_1kHz_N, N);
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CTS = AudioClockRegeneration[i].CTS_48kHz;
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N = AudioClockRegeneration[i].N_48kHz;
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HdmiCalcCTS(hdmi, Clock, &CTS, N, 48000);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_48kHz_CTS, CTS << 12);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_48kHz_N, N);
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}
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/*
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* calculate the crc for a given info frame
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*/
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static void
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HdmiInfoFrameChecksum(CARD8 packetType, CARD8 versionNumber, CARD8 length, CARD8* frame)
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{
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int i;
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frame[0] = packetType + versionNumber + length;
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for(i=1;i<=length;i++)
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frame[0] += frame[i];
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frame[0] = 0x100 - frame[0];
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}
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/*
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* build a HDMI Video Info Frame
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*/
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static void
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HdmiVideoInfoFrame(
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struct rhdHdmi *hdmi,
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enum HdmiColorFormat ColorFormat,
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Bool ActiveInformationPresent,
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CARD8 ActiveFormatAspectRatio,
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CARD8 ScanInformation,
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CARD8 Colorimetry,
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CARD8 ExColorimetry,
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CARD8 Quantization,
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Bool ITC,
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CARD8 PictureAspectRatio,
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CARD8 VideoFormatIdentification,
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CARD8 PixelRepetition,
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CARD8 NonUniformPictureScaling,
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CARD8 BarInfoDataValid,
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CARD16 TopBar,
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CARD16 BottomBar,
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CARD16 LeftBar,
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CARD16 RightBar
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)
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{
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CARD8 frame[14];
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frame[0x0] = 0;
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frame[0x1] =
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(ScanInformation & 0x3) |
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((BarInfoDataValid & 0x3) << 2) |
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((ActiveInformationPresent & 0x1) << 4) |
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((ColorFormat & 0x3) << 5);
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frame[0x2] =
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(ActiveFormatAspectRatio & 0xF) |
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((PictureAspectRatio & 0x3) << 4) |
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((Colorimetry & 0x3) << 6);
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frame[0x3] =
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(NonUniformPictureScaling & 0x3) |
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((Quantization & 0x3) << 2) |
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((ExColorimetry & 0x7) << 4) |
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((ITC & 0x1) << 7);
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frame[0x4] = (VideoFormatIdentification & 0x7F);
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frame[0x5] = (PixelRepetition & 0xF);
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frame[0x6] = (TopBar & 0xFF);
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frame[0x7] = (TopBar >> 8);
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frame[0x8] = (BottomBar & 0xFF);
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frame[0x9] = (BottomBar >> 8);
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frame[0xA] = (LeftBar & 0xFF);
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frame[0xB] = (LeftBar >> 8);
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frame[0xC] = (RightBar & 0xFF);
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frame[0xD] = (RightBar >> 8);
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HdmiInfoFrameChecksum(0x82, 0x02, 0x0D, frame);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_0,
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frame[0x0] | (frame[0x1] << 8) | (frame[0x2] << 16) | (frame[0x3] << 24));
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_1,
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frame[0x4] | (frame[0x5] << 8) | (frame[0x6] << 16) | (frame[0x7] << 24));
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_2,
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frame[0x8] | (frame[0x9] << 8) | (frame[0xA] << 16) | (frame[0xB] << 24));
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_3,
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frame[0xC] | (frame[0xD] << 8));
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}
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/*
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* build a Audio Info Frame
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*/
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static void
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HdmiAudioInfoFrame(
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struct rhdHdmi *hdmi,
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CARD8 ChannelCount,
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CARD8 CodingType,
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CARD8 SampleSize,
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CARD8 SampleFrequency,
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CARD8 Format,
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CARD8 ChannelAllocation,
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CARD8 LevelShift,
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Bool DownmixInhibit
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)
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{
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CARD8 frame[11];
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frame[0x0] = 0;
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frame[0x1] = (ChannelCount & 0x7) | ((CodingType & 0xF) << 4);
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frame[0x2] = (SampleSize & 0x3) | ((SampleFrequency & 0x7) << 2);
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frame[0x3] = Format;
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frame[0x4] = ChannelAllocation;
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frame[0x5] = ((LevelShift & 0xF) << 3) | ((DownmixInhibit & 0x1) << 7);
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frame[0x6] = 0;
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frame[0x7] = 0;
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frame[0x8] = 0;
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frame[0x9] = 0;
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frame[0xA] = 0;
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HdmiInfoFrameChecksum(0x84, 0x01, 0x0A, frame);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_0,
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frame[0x0] | (frame[0x1] << 8) | (frame[0x2] << 16) | (frame[0x3] << 24));
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_1,
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frame[0x4] | (frame[0x5] << 8) | (frame[0x6] << 16) | (frame[0x8] << 24));
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}
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/*
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* it's unknown what these bits do excatly, but it's indeed quite usefull for debugging
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*/
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static void
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HdmiAudioDebugWorkaround(struct rhdHdmi* hdmi, Bool Enable)
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{
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if(Enable) {
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, 0x1000, 0x1000);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIO_DEBUG, 0xffffff);
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} else {
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, 0, 0x1000);
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}
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}
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/*
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* allocate/initialize the HDMI structure
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* and register with audio engine
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* output selects which engine is used
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*/
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struct rhdHdmi*
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RHDHdmiInit(RHDPtr rhdPtr, struct rhdOutput* Output)
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{
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struct rhdHdmi *hdmi;
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RHDFUNC(rhdPtr);
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if(rhdPtr->ChipSet >= RHD_R600) {
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hdmi = (struct rhdHdmi *) xnfcalloc(sizeof(struct rhdHdmi), 1);
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hdmi->scrnIndex = rhdPtr->scrnIndex;
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hdmi->Output = Output;
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switch(Output->Id) {
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case RHD_OUTPUT_TMDSA:
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hdmi->Offset = HDMI_TMDS;
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break;
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case RHD_OUTPUT_LVTMA:
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hdmi->Offset = HDMI_LVTMA;
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break;
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case RHD_OUTPUT_UNIPHYA:
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hdmi->Offset = HDMI_TMDS;
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break;
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case RHD_OUTPUT_KLDSKP_LVTMA:
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hdmi->Offset = HDMI_DIG;
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break;
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/*case RHD_OUTPUT_UNIPHYB: */
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default:
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xf86DrvMsg(hdmi->scrnIndex, X_ERROR, "%s: unknown HDMI output type\n", __func__);
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xfree(hdmi);
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return NULL;
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break;
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}
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hdmi->Stored = FALSE;
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// RHDAudioRegisterHdmi(rhdPtr, hdmi);
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return hdmi;
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} else
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return NULL;
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}
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/*
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* update the info frames with the data from the current display mode
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*/
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void
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RHDHdmiSetMode(struct rhdHdmi *hdmi, DisplayModePtr Mode)
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{
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if(!hdmi) return;
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RHDFUNC(hdmi);
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// RHDAudioSetClock(RHDPTRI(hdmi), hdmi->Output, Mode->Clock);
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HdmiAudioDebugWorkaround(hdmi, FALSE);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_0, 0x1000);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_1, 0x0);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_2, 0x1000);
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HdmiAudioClockRegeneration(hdmi, Mode->Clock);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOCNTL, 0x13);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_VERSION, 0x202);
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HdmiVideoInfoFrame(hdmi, RGB, FALSE, 0, 0, 0,
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0, 0, FALSE, 0, 0, 0, 0, 0, 0, 0, 0, 0);
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/* audio packets per line, does anyone know how to calc this ? */
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, 0x020000, 0x1F0000);
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/* update? reset? don't realy know */
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, 0x14000000, 0x14000000);
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}
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/*
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* update settings whith current parameters from audio engine
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*/
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void
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RHDHdmiUpdateAudioSettings(
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struct rhdHdmi* hdmi,
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Bool playing,
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int channels,
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int rate,
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int bps,
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CARD8 status_bits,
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CARD8 category_code
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)
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{
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CARD32 iec;
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if(!hdmi) return;
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RHDFUNC(hdmi);
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xf86DrvMsg(hdmi->scrnIndex, X_INFO, "%s: %s with "
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"%d channels, %d Hz sampling rate, %d bits per sample,\n",
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__func__, playing ? "playing" : "stoped", channels, rate, bps);
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xf86DrvMsg(hdmi->scrnIndex, X_INFO, "%s: "
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"0x%02x IEC60958 status bits and 0x%02x category code\n",
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__func__, (int)status_bits, (int)category_code);
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/* start delivering audio frames */
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, playing ? 1 : 0, 0x1);
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iec = 0;
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if(status_bits & AUDIO_STATUS_PROFESSIONAL) iec |= 1 << 0;
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if(status_bits & AUDIO_STATUS_NONAUDIO) iec |= 1 << 1;
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if(status_bits & AUDIO_STATUS_COPYRIGHT) iec |= 1 << 2;
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if(status_bits & AUDIO_STATUS_EMPHASIS) iec |= 1 << 3;
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iec |= category_code << 8;
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switch(rate)
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{
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case 32000: iec |= 0x3 << 24; break;
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case 44100: iec |= 0x0 << 24; break;
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case 88200: iec |= 0x8 << 24; break;
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case 176400: iec |= 0xc << 24; break;
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case 48000: iec |= 0x2 << 24; break;
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case 96000: iec |= 0xa << 24; break;
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case 192000: iec |= 0xe << 24; break;
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}
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_IEC60958_1, iec);
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iec = 0;
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switch(bps)
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{
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case 16: iec |= 0x2; break;
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case 20: iec |= 0x3; break;
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case 24: iec |= 0xb; break;
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}
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if(status_bits & AUDIO_STATUS_V) iec |= 0x5 << 16;
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RHDRegMask(hdmi, hdmi->Offset+HDMI_IEC60958_2, iec, 0x5000f);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOCNTL, 0x31);
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HdmiAudioInfoFrame(hdmi, channels-1, 0, 0, 0, 0, 0, 0, FALSE);
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RHDRegMask(hdmi, hdmi->Offset+HDMI_CNTL, 0x400000, 0x400000);
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}
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/*
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* enable/disable the HDMI engine
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*/
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void
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RHDHdmiEnable(struct rhdHdmi *hdmi, Bool Enable)
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{
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if(!hdmi) return;
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RHDFUNC(hdmi);
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/* some version of atombios ignore the enable HDMI flag
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* so enabling/disabling HDMI was moved here for TMDSA and LVTMA */
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switch(hdmi->Output->Id) {
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case RHD_OUTPUT_TMDSA:
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RHDRegMask(hdmi, TMDSA_CNTL, Enable ? 0x4 : 0x0, 0x4);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_ENABLE, Enable ? 0x101 : 0x0);
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break;
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case RHD_OUTPUT_LVTMA:
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RHDRegMask(hdmi, LVTMA_CNTL, Enable ? 0x4 : 0x0, 0x4);
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_ENABLE, Enable ? 0x105 : 0x0);
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break;
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case RHD_OUTPUT_UNIPHYA:
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case RHD_OUTPUT_UNIPHYB:
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case RHD_OUTPUT_KLDSKP_LVTMA:
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RHDRegWrite(hdmi, hdmi->Offset+HDMI_ENABLE, Enable ? 0x110 : 0x0);
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break;
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default:
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xf86DrvMsg(hdmi->scrnIndex, X_ERROR, "%s: unknown HDMI output type\n", __func__);
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break;
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}
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}
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/*
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* save the current config of HDMI engine
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*/
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void
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RHDHdmiSave(struct rhdHdmi *hdmi)
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{
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if(!hdmi) return;
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RHDFUNC(hdmi);
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hdmi->StoreEnable = RHDRegRead(hdmi, hdmi->Offset+HDMI_ENABLE);
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hdmi->StoreControl = RHDRegRead(hdmi, hdmi->Offset+HDMI_CNTL);
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hdmi->StoredAudioDebugWorkaround = RHDRegRead(hdmi, hdmi->Offset+HDMI_AUDIO_DEBUG);
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hdmi->StoredFrameVersion = RHDRegRead(hdmi, hdmi->Offset+HDMI_VERSION);
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hdmi->StoredVideoControl = RHDRegRead(hdmi, hdmi->Offset+HDMI_VIDEOCNTL);
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hdmi->StoreVideoInfoFrame[0x0] = RHDRegRead(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_0);
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hdmi->StoreVideoInfoFrame[0x1] = RHDRegRead(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_1);
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hdmi->StoreVideoInfoFrame[0x2] = RHDRegRead(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_2);
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hdmi->StoreVideoInfoFrame[0x3] = RHDRegRead(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_3);
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hdmi->StoredAudioControl = RHDRegRead(hdmi, hdmi->Offset+HDMI_AUDIOCNTL);
|
|
hdmi->StoreAudioInfoFrame[0x0] = RHDRegRead(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_0);
|
|
hdmi->StoreAudioInfoFrame[0x1] = RHDRegRead(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_1);
|
|
|
|
hdmi->Store_32kHz_N = RHDRegRead(hdmi, hdmi->Offset+HDMI_32kHz_N);
|
|
hdmi->Store_32kHz_CTS = RHDRegRead(hdmi, hdmi->Offset+HDMI_32kHz_CTS);
|
|
|
|
hdmi->Store_44_1kHz_N = RHDRegRead(hdmi, hdmi->Offset+HDMI_44_1kHz_N);
|
|
hdmi->Store_44_1kHz_CTS = RHDRegRead(hdmi, hdmi->Offset+HDMI_44_1kHz_CTS);
|
|
|
|
hdmi->Store_48kHz_N = RHDRegRead(hdmi, hdmi->Offset+HDMI_48kHz_N);
|
|
hdmi->Store_48kHz_CTS = RHDRegRead(hdmi, hdmi->Offset+HDMI_48kHz_CTS);
|
|
|
|
hdmi->StoreIEC60958[0] = RHDRegRead(hdmi, hdmi->Offset+HDMI_IEC60958_1);
|
|
hdmi->StoreIEC60958[1] = RHDRegRead(hdmi, hdmi->Offset+HDMI_IEC60958_2);
|
|
|
|
hdmi->StoreUnknown[0x0] = RHDRegRead(hdmi, hdmi->Offset+HDMI_UNKNOWN_0);
|
|
hdmi->StoreUnknown[0x1] = RHDRegRead(hdmi, hdmi->Offset+HDMI_UNKNOWN_1);
|
|
hdmi->StoreUnknown[0x2] = RHDRegRead(hdmi, hdmi->Offset+HDMI_UNKNOWN_2);
|
|
|
|
hdmi->Stored = TRUE;
|
|
}
|
|
|
|
/*
|
|
* restore the saved config of HDMI engine
|
|
*/
|
|
void
|
|
RHDHdmiRestore(struct rhdHdmi *hdmi)
|
|
{
|
|
if(!hdmi) return;
|
|
RHDFUNC(hdmi);
|
|
|
|
if (!hdmi->Stored) {
|
|
xf86DrvMsg(hdmi->scrnIndex, X_ERROR, "%s: trying to restore "
|
|
"uninitialized values.\n", __func__);
|
|
return;
|
|
}
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_ENABLE, hdmi->StoreEnable);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_CNTL, hdmi->StoreControl);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIO_DEBUG, hdmi->StoredAudioDebugWorkaround);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VERSION, hdmi->StoredFrameVersion);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOCNTL, hdmi->StoredVideoControl);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_0, hdmi->StoreVideoInfoFrame[0x0]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_1, hdmi->StoreVideoInfoFrame[0x1]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_2, hdmi->StoreVideoInfoFrame[0x2]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_VIDEOINFOFRAME_3, hdmi->StoreVideoInfoFrame[0x3]);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOCNTL, hdmi->StoredAudioControl);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_0, hdmi->StoreAudioInfoFrame[0x0]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_AUDIOINFOFRAME_1, hdmi->StoreAudioInfoFrame[0x1]);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_32kHz_N, hdmi->Store_32kHz_N);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_32kHz_CTS, hdmi->Store_32kHz_CTS);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_44_1kHz_N, hdmi->Store_44_1kHz_N);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_44_1kHz_CTS, hdmi->Store_44_1kHz_CTS);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_48kHz_N, hdmi->Store_48kHz_N);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_48kHz_CTS, hdmi->Store_48kHz_CTS);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_IEC60958_1, hdmi->StoreIEC60958[0]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_IEC60958_2, hdmi->StoreIEC60958[1]);
|
|
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_0, hdmi->StoreUnknown[0x0]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_1, hdmi->StoreUnknown[0x1]);
|
|
RHDRegWrite(hdmi, hdmi->Offset+HDMI_UNKNOWN_2, hdmi->StoreUnknown[0x2]);
|
|
}
|
|
|
|
/*
|
|
* unregister with audio engine and release memory
|
|
*/
|
|
void
|
|
RHDHdmiDestroy(struct rhdHdmi *hdmi)
|
|
{
|
|
if(!hdmi) return;
|
|
RHDFUNC(hdmi);
|
|
|
|
// RHDAudioUnregisterHdmi(RHDPTRI(hdmi), hdmi);
|
|
|
|
xfree(hdmi);
|
|
}
|